Composition for non-chloride based and less corrosive liquid type deicer

ABSTRACT

A composition for a non-chloride based and less corrosive liquid type deicer is provided. The composition includes: potassium acetate of approximately 10% to approximately 20% by weight; disodium succinate of approximately 3% to approximately 10% by weight; dipotassium succinate of approximately 1% to approximately 5% by weight; ethylene glycol of approximately 5% to approximately 10% by weight; ethanol of approximately 5% to approximately 15% by weight; and an aqueous polyvinyl alcohol solution of approximately 40% to approximately 70% by weight. Such composition of the liquid type deicer is environmentally friendly by not containing chloride ions (e.g., non-pollution in soils), and is cost-effective due to an elongated reaction time by remaining continuously on snow/ice surfaces. Also, the composition of the liquid type deicer can be conveniently storable and easily sprayed, is not being re-frozen while being capable of removing snow/ice, and can replace expensive imported deicers.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a composition for a non-chloride basedand less corrosive liquid type deicer, and more particularly, to anon-chloride based and less corrosive liquid type deicer capable ofreplacing solid type deicers such as calcium chloride and sodiumchloride and capable of reducing corrosiveness and environmentalproblems.

2. Description of the Related Art

As for deicers and deicing methods that have been currently used, inUnited States, a mixture of sodium chloride (NaCl) and crushed sands isused at a temperature range from above zero to five degrees Celsiusbelow zero. If the temperature is below negative five degrees Celsius,an amount of NaCl is reduced or calcium chloride (CaCl₂) mixed withcrushed sands is used. In Canada, deicing salts are mainly used, andsands are used if necessary. For instance, sands are used in the case oficed roads.

In Switzerland, a mixture of salt and salt solution is mainly sprayedover surfaces and, sands are used for sidewalks in mountain areas andurban areas. For those roads requiring a high quality of deicingservices, a deicing agent is precendently sprayed over the roads.Especially, an automatic deicing agent spraying system has beenimplemented as an exemplary model.

The Japanese government has made a special law for securing safe roadtraffic in frequent snowing/cold regions and, has applied this speciallaw to those designated target roads. In particular, various newtechnologies such as a system for melting snow/ice using a slush removalapparatus or wind power and a high temperature water spray snow/icemelting facility using wasted heat have been developed.

In South Korea, those chloride-based solid type deicers have been used.Examples of such chloride-based solid type deicers are CaCl₂ and NaCl.However, due to strong toxicity of chlorine, various facilities,structures as well as vehicles are corroded, and those melting solutionscause severe environmental destructions, for instance, pollution inrivers, sewages and soils. In addition to the above-mentioneddisadvantages of the solid type deicers, a post-cleaning operation isnecessary because of excessively used deicers and sands, which are usedsimultaneously, and thus, deicing costs have been increased.

In more detail, chloride ions contained in the deicing chemical of CaCl₂or NaCl react with iron (Fe), and ferrous chloride (FeCl₂) is abruptlyproduced. However, FeCl₂ causes severe corrosion in vehicles, steelreinforcements and steel-framed structures. Also, dissolved CaCl₂becomes a main cause of environmental pollutions in biological organismsaround the roads, sewages, water, and roadside trees caused by acidifiedroads and soils as the dissolved CaCl₂ gets into soils and rivers. Theseenvironmental-destruction related costs cannot be even estimated.

In consideration of the above-described disadvantages of using theconventional deicers, there have been developed many substitutionarydeicers. For instance, urea, calcium magnesium acetates (CMAs), calciummagnesium salt of organic acids (CMOs), less corrosive deicing agentshave been proposed. However, these substitutionary deicers have not beencommonly used due to lack of effectiveness on costs and intendedfunctions.

SUMMARY OF THE INVENTION

Accordingly, the present invention is directed to a composition for anon-chloride based and less corrosive liquid type deicer thatsubstantially obviates one or more problems due to limitations anddisadvantages of the related art.

An object of the present invention is to provide a composition for aliquid type deicer which has characteristics of non-corrosiveness,environmentally friendliness, convenience in storage andcost-effectiveness due to a continuous reaction time and capabilities inremoving snow/ice and preventing a re-refreezing tendency and replacesexpensive imported deicers.

In more detail, according to one embodiment of the present invention,the liquid type deicer is not corrosive due to a non-chloride basedcomposition, does not pollute soils, and is not re-frozen. Also, theliquid type deicer can be stored is liquid state, is cost-effective dueto a continuously maintained reaction as the deicer chemicals remaincontinuously on snow/ice, and can be easily sprayed. Further, the liquidtype deicer is capable of removing snow/ice and preventing a re-freezingtendency and can replace expensive imported deicers.

Another object of the present invention is to provide a composition fora liquid type deicer including potassium acetate, disodium succinate,dipotassium succinate, ethlylene glycol, aqueous polyvinyl alcohol (PVA)solution, and ethanol.

In more detail, according to one embodiment of the present invention, acomposition for a liquid type deicer provided with specificcharacteristics includes potassium acetate of approximately 10% toapproximately 20% by weight, disodium succinate of approximately 3% toapproximately 10% by weight, dipotassium succinate of approximately 1%to approximately 5% by weight, ethlylene glycol of approximately 5% toapproximately 10% by weight, an aqueous PVA solution of approximately40% to approximately 70% by weight, and ethanol of approximately 5% toapproximately 15%.

Additional advantages, objects, and features of the invention will beset forth in part in the description which follows and in part willbecome apparent to those having ordinary skill in the art uponexamination of the following or may be learned from practice of theinvention. The objectives and other advantages of the invention may berealized and attained by the structure particularly pointed out in thewritten description and claims hereof as well as the appended drawings.

To achieve these objects and other advantages and in accordance with thepurpose of the invention, as embodied and broadly described herein,there is provided a composition for a non-chloride based and lesscorrosive liquid type deicer. Among the provided composition, potassiumacetate lowers a freezing point and acts as a snow/ice melting agent. Anamount of the potassium acetate is in a range of approximately 10% toapproximately 20% by weight, preferably, approximately 10% toapproximately 15% by weight. If the potassium acetate among the wholecomposition has an amount less than approximately 10% by weight, thepotassium acetate is less efficient as the snow/ice melting agent. Onthe other hand, if the potassium acetate has the amount aboveapproximately 20% by weight, a strong base characteristic appears,thereby eluting polyvinyl alcohol.

Among the provided composition, disodium succinate serves as ananti-corrosion agent and has an amount ranging from approximately 3% toapproximately 10% by weight, preferably, from approximately 5% toapproximately 8% by weight. If the amount of disodium succinate is lessthan approximately 3% by weight, the disodium succinate does not providean intended anti-corrosive characteristic. In contrast, if the amount ofdisodium succinate is greater than approximately 10% by weight, thedisodium succinate may impede a descending of a freezing point.Typically, disodium succinate can be produced by using sodium hydroxideand succinic acid.

Dipotassium succinate is a catalytic snow/ice melting agent and has anamount ranging from approximately 1% to approximately 5% by weight,preferably from approximately 2% to approximately 4% by weight. If theamount of dipotassium succinate is less than approximately 1% by weight,a catalytic reaction for melting snow/ice may barely appear. If theamount of dipotassium succinate is greater than approximately 5% byweight, acidity increases, provoking a corrosive characteristic.Commonly, dipotassium succinate can be produced by using potassiumhydroxide and succinic acid.

Ethylene glycol serves a role in lowering a freezing point and, amongthe whole composition, has an amount of approximately 5% toapproximately 10% by weight. A preferable amount of ethylene glycol isin a range of approximately 6% to approximately 9% by weight. If theamount of ethylene glycol is less than approximately 5% by weight, theethylene glycol cannot contribute to the descending of the freezingpoint. On the other hand, if the amount of ethylene glycol exceedsapproximately 10% by weight, the ethylene glycol may impede the meltingof snow/ice.

Polyvinyl alcohol (PVA) acts as a binder and is used in an aqueousstate. A dilution concentration of PVA ranges from approximately 0.01%weight-weight percentage (w/w) to approximately 0.03% w/w. Especially,an aqueous PVA solution that is diluted with water is commonly used. Ifthe aqueous PVA solution has a concentration less than approximately0.01% w/w, the aqueous PVA solution provides a weak binding forcebetween chemicals of the composition. If the aqueous PVA solution isdiluted above approximately 0.03% w/w, there may be producedprecipitations. Among the whole composition, the aqueous PVA solutionhas an amount ranging from approximately 40% to approximately 70% byweight, preferably from approximately 50% to approximately 60% byweight. If the amount of aqueous PVA solution is less than approximately40% by weight, amounts of other composing chemicals need to be increasedrelatively. Hence, there may be a limitation in obtaining a non-freezingcharacteristic at extremely low temperature or a disadvantage ofreducing cost-effectiveness. If the amount of aqueous PVA solution isgreater than approximately 70% by weight, an intended melting effect maybe reduced.

Ethanol lowers a freezing point and serves as a snow/ice melting agent.Of the whole composition, an amount of ethanol ranges from approximately5% to approximately 15% by weight, preferably, from approximately 5% toapproximately 9% by weight. If the amount of ethanol is less thanapproximately 5% by weight, the descending of the freezing point and thesnow/ice melting effect may be diminished. In contrast, if the amount ofethanol is greater than approximately 15% by weight, there may be adisadvantage of impairing disodium succinate from functioning as ananti-corrosive agent.

Although a manufacturing procedure of such liquid type deicer based onthe above described composition is not specifically limited, PVA isfirst dissolved in a large quantity of water, thereby obtaining acertain concentration of aqueous PVA solution. The aqueous PVA solutionis placed into an agitator and, while being agitated, potassium acetateis added and agitated together. Disodium succinate is then added theretoand is agitated again. Afterwards, dipotassium succinate is added to theabove resulting composition and then agitated again. Lastly, ethyleneglycol is added and agitated and, ethanol is added thereto and agitatedthereafter. Through these sequential operations, a composition for anon-chloride based and less corrosive liquid type deicer can beproduced. Each composing chemical is agitated at a rate of approximately1,000 rpm to approximately 1,500 rpm and at a temperature ranging fromapproximately 10° C. to approximately 30° C.

A composition for a non-chloride based and less corrosive liquid typedeicer manufactured according to one embodiment of the present inventionhas a freezing point of approximately −15° C. to approximately −30° C.Even though lots of moisture is produced on road surfaces as snow/icemelts by the above introduced deicer, there may not be an incidence ofre-freezing even at the abrupt descending temperature.

As for one embodied method of removing snow/ice using the aforementionedcomposition, a pump is inserted into a container placed into a certainvehicle and sprays the above-described deicer through a nozzle.Depending on amounts of received snow, an amount of the deicer sprayedper unit time under various ranges of pressure and a spraying rate areadjusted.

It is to be understood that both the foregoing general description andthe following detailed description of the present invention areexemplary and explanatory and are intended to provide furtherexplanation of the invention as claimed.

DETAILED DESCRIPTION OF THE INVENTION

Reference will now be made in detail to the preferred embodiments of thepresent invention, examples of which are illustrated in the accompanyingdrawings. It should be also noted that the sprit and scope of thepresent invention is not limited by certain embodiments of the presentinvention. Wherever possible, the same reference numbers will be usedthroughout the drawings to refer to the same or like parts.

Exemplary Embodiment 1

Approximately 55 g of aqueous PVA solution with approximately 0.01% w/wwas placed into an agitator and was then agitated. Approximately 19 g ofpotassium acetate was added thereto and was agitated together. Next,approximately 5 g of disodium succinate was added and was then agitated,being followed by an addition of approximately 2 g of dipotassiumsuccinate. The resulting composition was agitated again. Approximately10 g of ethylene glycol was added and agitated and afterwards,approximately 9 g of ethanol was added and agitated together. Thesesequential addition and agitation procedures provide a composition for aliquid type deicer, which dose not contain chloride ions and is lesscorrosive.

Exemplary Embodiments 2 and 3 & Comparative Examples 1 and 2

Other various exemplary compositions for a liquid type deicer arepossible according to other specific embodiments. Table 1 provided belowshows detailed description of amounts of composing chemicals of suchliquid type deicer which is manufactured by the above described methodin the first exemplary embodiment. TABLE 1 (Unit: grams (g)) EmbodimentEmbodiment Comparison Comparison 2 3 1 2 Aqueous 50 55 60 70 PVASolution Potassium 15 15 10 10 Acetate Disodium 5 5 0 5 SuccinateDipotassium 5 5 5 5 Succinate Ethylene 10 10 20 10 Glycol Ethanol 15 105 0Aqueous PVA solution:Embodiment 2-0.01% w/w aqueous solutionEmbodiment 3-0.01% w/w aqueous solutionComparison 1-0.01% w/w aqueous solutionComparison 2-0.01% w/w aqueous solution

Exemplary Experiment

Those various compositions for a liquid type deicer obtained from theabove first to the third embodiments and the firs to the secondcomparison examples are compared with calcium chloride (CaCl₂) which isa conventional deicer. Evaluation particulars and methods are describedin detail hereinafter.

(1) Corrosive Characteristic

Approximately 10 ml of each sample was placed into approximately 50 mlvials and each lid of vials was opened to provide an air-pathway. Ausual silvery white clip was placed into each vial such thatapproximately ⅔ of each clip was merged into the sample and then, it waschecked when corrosion occurred at each clip for the corrosioncomparison purpose. Herein, a sample of CaCl₂ was an aqueous solution ofapproximately 25% by weight.

(2) Environmental friendliness

Those samples were set to have approximately 5% by weight and toxicityof these samples was tested on fish. Especially, longevity values ofhealthy loaches when using the conventional CaCl₂ deicer and the deicersintroduced by the above described embodiments were measured for thecomparison purpose.

(3) Cost-Effectiveness

A reagent was estimated in the unit of kilograms (Kg) for the individualcomposition ratio of each sample, and the estimation results werecompared with the conventional CaCl₂ solution.

(4) Reaction Time (Snow/Ice Removing Effect)

Approximately 50 ml of each sample was placed into individual beakers ofapproximately 100 ml and then, approximately 9 ml of ice was putthereinto and a time taken for the complete melting of ice was measured.Approximately 25 g of solid CaCl₂ was used.

The above described test results are summarized in Table 2 below. TABLE2 Comparison Embodiment Example Calcium 1 2 3 1 2 Chloride Phase LiquidLiquid Liquid Liquid Liquid solid Corrosiveness 65 days 55 days 55 days30 days 60 days 2 days Environmental 10 days  8 days  9 days  7 days 10days 1 day  Friendliness Cost- 450 Wons/Kg 450 Wons/Kg 450 Wons/Kg 400Wons/Kg 300 Wons/Kg 400 Wons/Kg Effectiveness Reaction Time About 3About 3 About 3 About 4 About 4 About 5 (Snow/Ice minutes minutesminutes minutes minutes minutes Removing 15 Effect) seconds

In accordance with certain embodiments of the present invention, thereare provided effects as follows. First, the conventionally used calciumchloride deicer, which may corrode rapidly irons, concretes andasphalted pavements and thus, shortening lifetimes of vehicles, bridgesand roadways. Compared with the conventional calcium chloride, theintroduced liquid type deicer does not include chloride families andthus, an incidence of corrosion is less likely to occur, therebyincreasing lifetimes of vehicles and roadways.

Second, calcium chloride is dissolved in water and gets into rivers andsoils, causing serious environmental problems including acidification ofsoils and water pollution, which may eventually result in deaths ofplants such as trees in roadsides and various vegetables, and many skindiseases and itchiness of various animals. In contrast, the introducedliquid type deicer is environmentally friendly by not containingchloride ions and as a result, the introduced liquid type deicer doesnot destruct ecological systems, corrode concrete structures and pollutesoils and rivers.

Third, when using the conventional calcium chloride to remove snow/ice,lots of moisture are produced as snow/ice melts and, when thetemperature drops down in a certain extent, more wide regions are likelyto be frozen again, thereby resulting in a high risk of secondarytraffic accidents. However, the introduced liquid type deicer accordingto certain embodiments of the present invention is capable of meltingsnow/ice for a long time as simultaneous as of preventing an incidenceof re-freezing, which results in a decreased amount of moisture, whichmay be a potential re-freezing source. Therefore, it is possible toreduce a risk of dangerous secondary traffic accidents.

Fourth, the conventional deicers such as calcium chloride may behardened into lumps as absorbing moisture from the air when beingexposed for a long time. Thus, these lumped deicers need to be crushedagain when being used to remove snow/ice. In contrast, the introducedliquid type deicer can be conveniently storable and easily sprayed oversurfaces.

Fifth, the conventional calcium chloride may be effective for a shortperiod, and although the conventionally used calcium chloride and sodiumchloride is cheap, sands have to be used additionally. Also, the use ofthese conventional deicers may be expensive requiring an additionalcleansing operation and labors therefor. The conventional deicers mayhave indirect costs related to various environmental problems provokedwhen using these conventional deicers. However, the introduced liquidtype deicer continuously maintains the intended deicing function byremaining on surfaces of snow/ice. As a result, the price of theintroduced liquid deicer is not expensive and does not require theadditional costs and indirect costs related to environmental problems.That is, the introduced deicer is more cost-effective.

Sixth, since the introduced deicer is in liquid state, it is easy tospray while proving those functions of removing snow/ice and preventingan incidence of re-freezing.

Lastly, based on the above-described effects, the introduced liquid typedeicer can also replace expensive imported deicers.

It will be apparent to those skilled in the art that variousmodifications and variations can be made in the present invention. Thus,it is intended that the present invention covers the modifications andvariations of this invention provided they come within the scope of theappended claims and their equivalents.

1. A composition for a non-chloride based and less corrosive liquid typedeicer, comprising: potassium acetate; disodium succinate; dipotassiumsuccinate; ethylene glycol; ethanol; and an aqueous polyvinyl alcoholsolution.
 2. The composition of claim 1, wherein the aqueous polyvinylalcohol solution has a concentration of approximately 0.01%weight-weight percentage (w/w) to approximately 0.03% w/w.
 3. Thecomposition of claim 1, wherein the composition has a freezing pointranging from approximately −15° C. to approximately −30° C.